!------------------------------------------------------------------------------
!                  Harvard-NASA Emissions Component (HEMCO)                   !
!------------------------------------------------------------------------------
!BOP
!
! !MODULE: interpreter 
!
! !DESCRIPTION: Module interpreter is a third-party module that parses and
! evaluates mathematical functions, e.g. 2*sin(MM). 
! downloaded on May 12, 2017 from http://zeus.df.ufcg.edu.br/labfit/functionparser.htm
!\\
!\\
!
! !REVISION HISTORY:
!  12 May 2017 - C. Keller   - Modified for use in HEMCO: use hp instead of realkind.
!  16 May 2017 - R. Yantosca - Do not use SIND, COSD, TAND functions, because
!                              these are non-standard (Gfortran chokes)
!  16 May 2017 - R. Yantosca - Replaced TABs with spaces, cosmetic changes
!EOP
!------------------------------------------------------------------------------

!module functp_precision
! !Precision:
! !All real variables defaulted to double precision
! integer, parameter  :: realkind = selected_real_kind(p=13,r=200)  
!end module functp_precision

module interpreter
 !
 ! This module interprets the function, builds it to be evaluated 
 ! next
 !
 !use functp_precision
  use hco_error_mod 

  ! Need this to convert degrees to radians, because SIND, COSD, etc
  ! functions are not supported in GNU Fortran (bmy, 5/16/17)
  use PhysConstants, ONLY : PI_180

  implicit none

  public :: init
  public :: evaluate 
  public :: destroyfunc 

  character(len=10),   dimension(:), allocatable, private :: varnames 
  character(len=255),  dimension(:), allocatable, private :: stokens
  integer,             dimension(:), allocatable, private :: operations
  integer,                                        private :: n 
  integer,                                        private :: ntokens = 0 
  character,           dimension(:), pointer,     private :: opaddsub   !Operador
  integer,                                        private :: isaddsub = 1
  character,           dimension(:), pointer,     private :: opmuldiv   !Operador
  integer,                                        private :: ismuldiv = 1
  character(len=255),                             private :: toke
  integer,                                        private :: itoke = 1
  integer,                                        private :: ioperations = 1
  integer,                                        private :: numberk = 1
  real(kind=hp),       dimension(:), pointer,     private :: pdata
  real(kind=hp),       dimension(:), pointer,     private :: number
  character(len=5),                               public  :: statusflagparser = 'ok'

contains

  subroutine init (func, variablenames, statusflag)
    !
    !  This subroutine shifts all characters of the function 
    !  expression to lowercase and converts exponents signals ** to ^
    !
    character(len=*),                intent(inout)  :: func
    character(len=10), dimension(:), intent(inout)  :: variablenames 
    character(len=26)                               :: lower = 'abcdefghijklmnopqrstuvwxyz'
    character(len=26)                               :: upper = 'ABCDEFGHIJKLMNOPQRSTUVWXYZ'
    integer                                         :: i, k, funclen
    character(len=5),  intent(out)                  :: statusflag

    !detects errors
    call identifica(func)
    call convert_b(func)
    

    !Shift all characters to lowercase and converts ** to ^
    funclen = len_trim(func)
    do i = 1, funclen
       k = index(upper,func(i:i)) 
       if ( k /= 0) then
          func(i:i) = lower(k:k)
       end if
       k = index(func,'**')
       if (k /= 0) then
          func = func(:k-1) // '^' // func(k+2:)
       end if
    end do
    call blanks(func)
    call recog_variables (func, variablenames)
    statusflag = statusflagparser


  end subroutine init
 
 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!  

  subroutine recog_variables (func, variablenames)
    !
    ! This subroutine recognizes the variables and set their values
    !
    character(len=10), dimension(:), intent(in)     :: variablenames 
    character(len=*), intent(inout)     :: func
    
    n = size(variablenames)
    allocate(varnames(n))
    varnames = variablenames
    call tokens_analyzer (func)
    
  end subroutine recog_variables

 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!  

  subroutine tokens_analyzer (func)
    !
    ! This subroutine scans the func string storing its basic elements
    !
    character(len=*), intent(in)     :: func
    character(len=11)        :: numbers = '.0123456789'
    character(len=26)        :: chars = 'abcdefghijklmnopqrstuvwxyz'
    character(len=7)        :: operators = '+-*/^()'
    integer           :: k = 1, i = 1 
    integer           :: irightbrackets = 1, ileftbrackets = 1 
    logical           :: status = .true. 
    
    k = 1
    i = 1
    irightbrackets = 1
    ileftbrackets = 1 
    ntokens = 0 
    status = .true.
    
    do while (k <= len_trim(func))
       !It's a variable, or function  name
       if (index(chars,func(k:k)) /= 0) then
          status = .true.
          do while (status)
             if (index(operators, func(k+1:k+1)) == 0 .and. func(k+1:k+1) /= ' ') then
                k = k + 1
             else
                status = .false.
                k = k + 1
             end if
          end do
          ntokens = ntokens + 1
          
          !It's a number
       else if (index(numbers,func(k:k)) /= 0) then
          status = .true.
          do while (status)
             if ((index(operators, func(k+1:k+1)) == 0 .and. func(k+1:k+1) /= ' ') .or. func(k+1:k+1) == 'e' .or. func(k+1:k+1) == 'd') then
                k = k + 1
             else
                if(func(k:k) == 'e' .or. func(k:k) == 'd') then
                   k = k + 1
                else
                   status = .false.
                   k = k + 1
                end if
             end if
          end do
          ntokens = ntokens + 1
          
          !It's an operator or delimitator
       else 
          k = k + 1
          ntokens = ntokens + 1
       end if
    end do
    
    allocate(stokens(ntokens))
    
    k = 1
    i = 1
    
    do while (k <= len_trim(func))
       !It's a variable, or function  name
       if (index(chars,func(k:k)) /= 0) then
          stokens(i) = func(k:k)
          status = .true.
          do while (status)
             if (index(operators, func(k+1:k+1)) == 0 .and. func(k+1:k+1) /= ' ') then
                stokens(i) = trim(stokens(i)) // func(k+1:k+1)
                k = k + 1
             else
                status = .false.
                k = k + 1
                i = i + 1
             end if
          end do
          
          !It's a number
       else if (index(numbers,func(k:k)) /= 0) then
          stokens(i) = func(k:k)
          status = .true.
          do while (status)
             if ((index(operators, func(k+1:k+1)) == 0 .and. func(k+1:k+1) /= ' ') .or. func(k+1:k+1) == 'e' .or. func(k+1:k+1) == 'd') then
                stokens(i) = trim(stokens(i)) // func(k+1:k+1)
                k = k + 1
             else
                if(func(k:k) == 'e' .or. func(k:k) == 'd') then
                   stokens(i) = trim(stokens(i)) // func(k+1:k+1)
                   k = k + 1
                else
                   status = .false.
                   i = i + 1
                   k = k + 1
                end if
             end if
          end do
   
          !It's an operator or delimitator
       else 
          stokens(i) = func(k:k)
          if(stokens(i) == '(')then
             irightbrackets = irightbrackets + 1
          else if(stokens(i) == ')') then
             ileftbrackets = ileftbrackets + 1
          end if
          i = i + 1
          k = k + 1
       end if
    end do
    
    if (irightbrackets /= ileftbrackets) then
       statusflagparser = 'error'
       return
    end if
    
    itoke = 1
    isaddsub = 1
    ismuldiv = 1
    ioperations = 1
    numberk = 1
    toke = stokens(itoke)
    allocate(opaddsub(2))
    allocate(opmuldiv(2))
    allocate(number(ntokens))
    allocate(pdata(ntokens))
    allocate(operations(ntokens))
    
    call add_sub()
    ioperations = ioperations - 1
    
  end subroutine tokens_analyzer
  
  !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
  !The following subroutines call themselves recursively
  !to build the expression to be parsed based on an algorithm
  !called Recursive Descendent Parsing
  !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
 
  subroutine add_sub ()
    !
    ! Enter description here
    ! 
    
    call mul_div ()
    
    do while (trim(toke) == '+' .or. trim(toke) == '-') 
       opaddsub(isaddsub) = trim(toke)
       isaddsub = isaddsub + 1
       itoke = itoke + 1
       toke = stokens(itoke)
       call mul_div()
       
       selectcase(opaddsub(isaddsub-1))
       case('+')
          isaddsub = isaddsub - 1
          operations(ioperations) = 3
          ioperations = ioperations + 1
  
       case('-')
          isaddsub = isaddsub - 1
          operations(ioperations) = 4
          ioperations = ioperations + 1
       end select
    end do
    
  end subroutine add_sub
  
  subroutine mul_div ()
    !
    ! Enter description here
    !
    
    call unary()
    
    do while (trim(toke) == '*' .or. trim(toke) == '/') 
       opmuldiv(ismuldiv) = trim(toke)
       ismuldiv = ismuldiv + 1
       itoke = itoke + 1
       toke = stokens(itoke)
       call unary()
       
       selectcase(opmuldiv(ismuldiv-1))
       case('*')
          ismuldiv = ismuldiv - 1 
          operations(ioperations) = 5
          ioperations = ioperations + 1 
       case('/')
          ismuldiv = ismuldiv - 1
          operations(ioperations) = 6
          ioperations = ioperations + 1
       end select
    end do
    
  end subroutine mul_div
  
  subroutine unary()
    !
    ! Enter description here
    !
    
    if (trim(toke) == '-') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call pow()
       operations(ioperations) = 2
       ioperations = ioperations + 1
    else if (trim(toke) == '+') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call pow()
    else
       call pow()
    end if
    
  end subroutine unary

  subroutine pow ()
    !
    ! Enter description here
    !

    call functions()

    if (trim(toke) == '^') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call functions()
       operations(ioperations) = 7
       ioperations = ioperations + 1
    end if
    
  end subroutine pow

  subroutine functions ()
    !
    ! Enter description here
    ! 
    if (trim(toke) == 'sin') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 8
       ioperations = ioperations + 1
       
    else if(trim(toke) == 'cos') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 9
       ioperations = ioperations + 1
       
    else if(trim(toke) == 'tan') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 10
       ioperations = ioperations + 1
       
    else if(trim(toke) == 'asin') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 11
       ioperations = ioperations + 1
       
    else if(trim(toke) == 'acos') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 12
       ioperations = ioperations + 1
       
    else if(trim(toke) == 'atan') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 13
       ioperations = ioperations + 1
       
    else if(trim(toke) == 'sinh') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 14
       ioperations = ioperations + 1
       
    else if(trim(toke) == 'cosh') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()  
       operations(ioperations) = 15
       ioperations = ioperations + 1
       
    else if(trim(toke) == 'tanh') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 16
       ioperations = ioperations + 1
       
    else if(trim(toke) == 'sind') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 17
       ioperations = ioperations + 1
       
    else if(trim(toke) == 'cosd') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 18
       ioperations = ioperations + 1
       
    else if(trim(toke) == 'tand') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()  
       operations(ioperations) = 19
       ioperations = ioperations + 1
       
    else if (trim(toke) == 'log') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 20
       ioperations = ioperations + 1
       
    else if (trim(toke) == 'log10') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 21
       ioperations = ioperations + 1
       
    else if (trim(toke) == 'nint') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 22
       ioperations = ioperations + 1
       
    else if (trim(toke) == 'anint') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 23
       ioperations = ioperations + 1
       
    else if (trim(toke) == 'aint') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 24
       ioperations = ioperations + 1
       
    else if (trim(toke) == 'exp') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 25
       ioperations = ioperations + 1
       
    else if (trim(toke) == 'sqrt') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 26
       ioperations = ioperations + 1
       
    else if (trim(toke) == 'abs') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 27
       ioperations = ioperations + 1
       
    else if (trim(toke) == 'floor') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call brackets()
       operations(ioperations) = 28
       ioperations = ioperations + 1
       
    else
       call brackets()
       
    end if
    
  end subroutine functions
  
  subroutine brackets()
    !
    ! Enter description here
    !
    if (trim(toke) == '(') then
       itoke = itoke + 1
       toke = stokens(itoke)
       call add_sub()
       if (trim(toke) /= ')') then
          statusflagparser =  'error'
          return
       end if
       if (itoke < ntokens) then
          itoke = itoke + 1
          toke = stokens(itoke)
       end if
       if (trim(toke) == '(') then
          statusflagparser =  'error'
          return
       end if
    else
       call recog_vars ()
    end if
    
  end subroutine brackets
  
  subroutine recog_vars ()
    !
    ! Enter description here
    !
    
    integer          :: i
    integer          :: ierror
    character(len=7) :: operators = '+-*/^()'
    
    !Expression has an error
    if (index(operators, trim(toke)) /= 0) then
       statusflagparser = 'error'
       return 
    end if
    
    do i = 1, n
       !It's a variable
       if (trim(toke) == varnames(i)) then
          operations(ioperations) = 28+i
          ioperations = ioperations + 1
          if (itoke < ntokens) then
             itoke = itoke + 1
             toke = stokens(itoke)
          end if
          return
       end if
    end do
    
    !It's a number
    toke = trim(toke)
    read(toke, *, iostat = ierror) number(numberk)
    if (ierror /= 0) then
       statusflagparser = 'error'
       return
    else
       operations(ioperations) = 1
       ioperations = ioperations + 1
       if (itoke < ntokens) then
          itoke = itoke + 1
          toke = stokens(itoke)
       end if
       numberk = numberk + 1
    end if
    
  end subroutine recog_vars
  
  
  function evaluate (vars) result (answer)

    !
    ! This function will evaluate the expression supplied
    !
    
    real(kind = hp), dimension(:), intent(in)  :: vars
    real(kind = hp)                            :: answer
    integer                                    :: st = 0
    integer                                    :: dt = 1
    integer                                    :: i  
    
    st = 0
    dt = 1

    do i = 1, ioperations 
       select case(operations(i))
       case (1)
          st = st + 1
          pdata(st) = number(dt)
          dt = dt + 1
       case (2)
          pdata(st) = - pdata(st)
       case (3)
          pdata(st-1) = pdata(st-1) + pdata(st)
          st = st - 1 
       case (4)
          pdata(st-1) = pdata(st-1) - pdata(st)
          st = st - 1 
       case (5)
          pdata(st-1) = pdata(st-1) * pdata(st)
          st = st - 1 
       case (6)
          pdata(st-1) = pdata(st-1) / pdata(st)
          st = st - 1 
       case (7)
          pdata(st-1) = pdata(st-1) ** pdata(st)
          st = st - 1
       case (8)
          pdata(st) = sin(pdata(st))
       case (9)
          pdata(st) = cos(pdata(st))
       case (10)
          pdata(st) = tan(pdata(st))
       case (11)
          pdata(st) = asin(pdata(st))
       case (12)
          pdata(st) = acos(pdata(st))
       case (13)
          pdata(st) = atan(pdata(st))
       case (14)
          pdata(st) = sinh(pdata(st))
       case (15)
          pdata(st) = cosh(pdata(st))
       case (16)
          pdata(st) = tanh(pdata(st))
       case (17)
          pdata(st) = sin(pdata(st)*PI_180)  ! Equivalent to SIND (bmy, 5/16/17)
       case (18)
          pdata(st) = cos(pdata(st)*PI_180)  ! Equivalent to COSD (bmy, 5/16/17)
       case (19)
          pdata(st) = tan(pdata(st)*PI_180)  ! Equivalent to TAND (bmy, 5/16/17)
       case (20)
          pdata(st) = log(pdata(st))
       case (21)
          pdata(st) = log10(pdata(st))
       case (22)
          pdata(st) = nint(pdata(st))
       case (23)
          pdata(st) = anint(pdata(st))
       case (24)
          pdata(st) = aint(pdata(st))
       case (25)
          pdata(st) = exp(pdata(st))
       case (26)
          pdata(st) = sqrt(pdata(st))
       case (27)
          pdata(st) = abs(pdata(st))
       case (28)
          pdata(st) = floor(pdata(st))
       case default
          st = st + 1
          pdata(st) = vars(operations(i)-28)
       end select
    end do
    
    answer = pdata(1)
    
  end function evaluate

  
  function evaluate_detalhes (vars) result (answer)
    !
    ! This function will evaluate the expression supplied
    !
    
    real(kind = hp), dimension(:), intent(in)  :: vars
    real(kind = hp)                            :: answer
    integer                                    :: st = 0
    integer                                    :: dt = 1
    integer                                    :: i  
    
    st = 0
    dt = 1
    
    do i = 1, ioperations 
       select case(operations(i))
          
       case (1)
          st = st + 1
          pdata(st) = number(dt)
          dt = dt + 1
          
       case (2)
          pdata(st) = - pdata(st)
          
       case (3)
          pdata(st-1) = pdata(st-1) + pdata(st)
          st = st - 1 
          
       case (4)
          pdata(st-1) = pdata(st-1) - pdata(st)
          st = st - 1 
          
       case (5)
          pdata(st-1) = pdata(st-1) * pdata(st)
          st = st - 1 
          
       case (6)
          if(abs(pdata(st)) < 1.0e-30) then
             answer = -7.093987e-35
             return
          end if
          pdata(st-1) = pdata(st-1) / pdata(st)
          st = st - 1 
          
       case (7)
          if(pdata(st-1) < 0.0 .AND. (pdata(st)-int(pdata(st))) /= 0.0) then
             answer = -7.093987e-35
             return
          end if
          if(pdata(st)*log(abs(pdata(st-1)+1.0E-15)) > 65.0) then
             answer = -7.093987e-35
             return
          end if
          pdata(st-1) = pdata(st-1) ** pdata(st)
          st = st - 1
          
       case (8)
          pdata(st) = sin(pdata(st))
          
       case (9)
          pdata(st) = cos(pdata(st))
          
       case (10)
          if((abs(pdata(st)) > 89.99*3.141593/180. .and. abs(pdata(st)) < 90.01*3.141593/180)&
               .or. (abs(pdata(st)) > 269.99*3.141593/180. .and. abs(pdata(st)) < 270.01*3.141593/180)) then
             answer = -7.093987e-35
             return
          end if
          pdata(st) = tan(pdata(st))
          
       case (11)
          if(abs(pdata(st)) > 1.0) then
             answer = -7.093987e-35
             return
          end if
          pdata(st) = asin(pdata(st))
          
       case (12)
          if(abs(pdata(st)) > 1.0) then
             answer = -7.093987e-35
             return
          end if
          pdata(st) = acos(pdata(st))
          
       case (13)
          if(abs(pdata(st)) > 1.0e+10) then
             answer = -7.093987e-35
             return
          end if
          pdata(st) = atan(pdata(st))
          
       case (14)
          if(pdata(st) > 60) then
             answer = -7.093987e-35
             return
          end if
          pdata(st) = sinh(pdata(st))
          
       case (15)
          if(pdata(st) > 60) then
             answer = -7.093987e-35
             return
          end if
          pdata(st) = cosh(pdata(st))
          
       case (16)
          pdata(st) = tanh(pdata(st))
          
       case (17)
          pdata(st) = sin(pdata(st)*PI_180)  ! Equivalent to SIND (bmy, 5/16/17)
          
       case (18)
          pdata(st) = cos(pdata(st)*PI_180)  ! Equivalent to COSD (bmy, 5/16/17)
          
       case (19)
          pdata(st) = tan(pdata(st)*PI_180)  ! Equivalent to TAND (bmy, 5/16/17)
          
       case (20)
          if(pdata(st) <= 1.0e-15) then
             answer = -7.093987e-35
             return
          end if
          pdata(st) = log(pdata(st))
          
       case (21)
          if(pdata(st) <= 1.0e-15) then
             answer = -7.093987e-35
             return
          end if
          pdata(st) = log10(pdata(st))
          
       case (22)
          pdata(st) = nint(pdata(st))
          
       case (23)
          pdata(st) = anint(pdata(st))
          
       case (24)
          pdata(st) = aint(pdata(st))
          
       case (25)
          if(pdata(st) > 55) then
             answer = -7.093987e-35
             return
          end if
          pdata(st) = exp(pdata(st))
          
       case (26)
          if(pdata(st) < 0) then
             answer = -7.093987e-35
             return
          end if
          pdata(st) = sqrt(pdata(st))
          
       case (27)
          pdata(st) = abs(pdata(st))
          
       case (28)
          pdata(st) = floor(pdata(st))
          
       case default
          st = st + 1
          pdata(st) = vars(operations(i)-28)
          
       end select
       
       if(abs(pdata(st)) > 1.0d+60) then
          answer = -7.093987e-35
          return
       end if
       
    end do
    
    answer = pdata(1)
    
  end function evaluate_detalhes
  
  
  subroutine destroyfunc()
 
    if (allocated(stokens)) then
       deallocate(stokens)
    end if
    if (associated(opaddsub)) then
       deallocate(opaddsub)
    end if
    if (associated(opmuldiv)) then
       deallocate(opmuldiv)
    end if
    if (associated(number)) then
       deallocate(number)
    end if
    if (associated(pdata)) then
       deallocate(pdata)
    end if
    if (allocated(operations)) then
       deallocate(operations)
    end if
    if (allocated(varnames)) then
       deallocate(varnames)
    end if
    statusflagparser = 'ok'
    
  end subroutine destroyfunc

 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!  

  recursive subroutine blanks(func)
    !
    ! This subroutine removes unnecessary blank spaces
    !
    character(len=*), intent(inout)  :: func
    integer        :: k
    
    func = adjustl(func)
    k = index(trim(func), ' ')
    if (k /= 0) then
       func = func(:k-1) // func(k+1:)
       call blanks(func)
    end if
    
  end subroutine blanks

end module interpreter





subroutine identifica(funcao)
  character (255) funcao
  character (36) variav
  
  variav = '0123456789abcdefghijklmnopqrstuvwxyz'
  
  nchar = len(trim(funcao))
  
  do i = 1,nchar
     if(funcao(i:i) == 'A')funcao(i:i) = 'a'
     if(funcao(i:i) == 'B')funcao(i:i) = 'b'
     if(funcao(i:i) == 'C')funcao(i:i) = 'c'
     if(funcao(i:i) == 'D')funcao(i:i) = 'd'
     if(funcao(i:i) == 'E')funcao(i:i) = 'e'
     if(funcao(i:i) == 'F')funcao(i:i) = 'f'
     if(funcao(i:i) == 'G')funcao(i:i) = 'g'
     if(funcao(i:i) == 'H')funcao(i:i) = 'h'
     if(funcao(i:i) == 'I')funcao(i:i) = 'i'
     if(funcao(i:i) == 'J')funcao(i:i) = 'j'
     if(funcao(i:i) == 'K')funcao(i:i) = 'k'
     if(funcao(i:i) == 'L')funcao(i:i) = 'l'
     if(funcao(i:i) == 'M')funcao(i:i) = 'm'
     if(funcao(i:i) == 'N')funcao(i:i) = 'n'
     if(funcao(i:i) == 'O')funcao(i:i) = 'o'
     if(funcao(i:i) == 'P')funcao(i:i) = 'p'
     if(funcao(i:i) == 'Q')funcao(i:i) = 'q'
     if(funcao(i:i) == 'R')funcao(i:i) = 'r'
     if(funcao(i:i) == 'S')funcao(i:i) = 's'
     if(funcao(i:i) == 'T')funcao(i:i) = 't'
     if(funcao(i:i) == 'U')funcao(i:i) = 'u'
     if(funcao(i:i) == 'V')funcao(i:i) = 'v'
     if(funcao(i:i) == 'W')funcao(i:i) = 'w'
     if(funcao(i:i) == 'X')funcao(i:i) = 'x'
     if(funcao(i:i) == 'Y')funcao(i:i) = 'y'
     if(funcao(i:i) == 'Z')funcao(i:i) = 'z'
  end do
  
  
  
  if(funcao(nchar:nchar) == '-' .or. funcao(nchar:nchar) == '+' .or. funcao(nchar:nchar) == '/' .or. funcao(nchar:nchar) == '*') then
     funcao = 'erro'
     return
  end if
  
  if(funcao(1:1) == '*' .or. funcao(1:1) == '/') then
     funcao = 'erro'
     return
  end if
  
  do i = 1, nchar-1
     if(funcao(i:i+1) == '--' .or. funcao(i:i+1) == '-+' .or. funcao(i:i+1) == '-/' .or. funcao(i:i+1) == '-*') funcao = 'erro'
     if(funcao(i:i+1) == '+-' .or. funcao(i:i+1) == '++' .or. funcao(i:i+1) == '+/' .or. funcao(i:i+1) == '+*') funcao = 'erro'
     if(funcao(i:i+1) == '*-' .or. funcao(i:i+1) == '*+' .or. funcao(i:i+1) == '*/') funcao = 'erro'
     if(funcao(i:i+1) == '/-' .or. funcao(i:i+1) == '/+' .or. funcao(i:i+1) == '//' .or. funcao(i:i+1) == '/*') funcao = 'erro'
  end do
  if(trim(funcao) == 'erro') return
  
  do i = 1, nchar-1
     do j = 1, 36
        if(funcao(i:i+1) == ')'//variav(j:j)) funcao = 'erro'
     end do
  end do
  if(trim(funcao) == 'erro') return
  
  do i = 1, nchar-1
     do j = 1, 36
        if(funcao(i:i) == '0' .or. funcao(i:i) == 'n' .or. funcao(i:i) == 's' .or. funcao(i:i) == 'h' .or. funcao(i:i) == 'd' .or. funcao(i:i) == 'g' .or. funcao(i:i) == 't' .or. funcao(i:i) == 'p' .or. funcao(i:i) == 'r') then
           !n�o testa, pode ser uma das fun��es definidas
        else
           if(funcao(i:i+1) == variav(j:j)//'(') funcao = 'erro'
        end if
     end do
  end do
  if(trim(funcao) == 'erro') return
  
  
  if(nchar >= 5) then
     do i = 1,nchar-4
        
        if(funcao(i:i+4) == 'log10') then
           j = i+5
19         continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 19
           end if
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
        end if
        
        if(funcao(i:i+4) == 'anint') then
           j = i+5
20         continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 20
           end if
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
        end if
        
        if(funcao(i:i+4) == 'floor') then
           j = i+5
21         continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 21
           end if
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
        end if
        
     end do
  end if
  
  
  
  
  if(nchar >= 4) then
     do i = 1,nchar-3
        
        if(funcao(i:i+3) == 'asin') then
           j = i+4
7          continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 7
           end if
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
        end if
        
        if(funcao(i:i+3) == 'acos') then
           j = i+4
8          continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 8
           end if
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
        end if
        
        if(funcao(i:i+3) == 'atan') then
           j = i+4
9          continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 9
           end if
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
        end if
        
        if(funcao(i:i+3) == 'sinh') then
           j = i+4
10         continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 10
           end if
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
        end if
        
        if(funcao(i:i+3) == 'cosh') then
           j = i+4
11         continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 11
           end if
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
        end if
        
        if(funcao(i:i+3) == 'tanh') then
           j = i+4
12         continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 12
           end if
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
        end if
        
        if(funcao(i:i+3) == 'sind') then
           j = i+4
13         continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 13
           end if
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
        end if

        if(funcao(i:i+3) == 'cosd') then
           j = i+4
14         continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 14
           end if
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
        end if
        
        if(funcao(i:i+3) == 'tand') then
           j = i+4
15         continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 15
           end if
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
        end if
        
        if(funcao(i:i+3) == 'nint') then
           j = i+4
16         continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 16
           end if
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
        end if
        
        if(funcao(i:i+3) == 'aint') then
           j = i+4
17         continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 17
           end if
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
        end if
        
        if(funcao(i:i+3) == 'sqrt') then
           j = i+4
18         continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 18
           end if
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
        end if
        
     end do
  end if
  
  
  
  
  if(nchar >= 3) then
     do i = 1,nchar-2
        
        if(funcao(i:i+2) == 'sin') then
           j = i+3
1          continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 1
           end if
           if(funcao(j:j) == 'd' .or. funcao(j:j) == 'h') goto 51
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
51         continue
        end if
        
        if(funcao(i:i+2) == 'cos') then
           j = i+3
2          continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 2
           end if
           if(funcao(j:j) == 'd' .or. funcao(j:j) == 'h') goto 52
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
52         continue
        end if
        
        if(funcao(i:i+2) == 'tan') then
           j = i+3
3          continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 3
           end if
           if(funcao(j:j) == 'd' .or. funcao(j:j) == 'h') goto 53
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
53         continue
        end if
        
        if(funcao(i:i+2) == 'log') then
           j = i+3
4          continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 4
           end if
           if(j < (nchar-1) .and. funcao(j:j+1) == '10') goto 54
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
54         continue
        end if
        
        if(funcao(i:i+2) == 'exp') then
           j = i+3
5          continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 5
           end if
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
        end if
        
        if(funcao(i:i+2) == 'abs') then
           j = i+3
6          continue
           if(j >= nchar) then
              funcao = 'erro'
              return
           end if
           if(funcao(j:j) == ' ') then
              j = j + 1
              goto 6
           end if
           if(funcao(j:j) /= '(') then
              funcao = 'erro'
              return
           end if
        end if
        
     end do
  endif
  

  return
end subroutine identifica



subroutine convert_b(text)
character (255) text
INTENT(INOUT)::text


ilength = len(trim(text))

do k = 1,ilength
   if(text(k:k) == '[' .or. text(k:k) == '{') text(k:k)='('
   if(text(k:k) == ']' .or. text(k:k) == '}') text(k:k)=')'
end do


10 continue
item = 0
ilength = len(trim(text))

 if(ilength > 1) then

  do k = 1,(ilength-1)
   
   !converte ^ em **, caso o usu�rio digite ^
   if(text(k:k) == '^') then
    text = text(1:k-1)//'**'//text(k+1:ilength)
 ilength = ilength + 1
 item = 1
   end if

   !converte ln em log
   if(text(k:k+1) == 'ln' .or. text(k:k+1) == 'Ln' .or.text(k:k+1) == 'lN' .or.text(k:k+1) == 'LN') then
    text = text(1:k-1)//'log'//text(k+2:ilength)
 ilength = ilength + 1
 item = 1
   end if

   !converte pi em 3.14159
   if(text(k:k+1) == 'pi' .or. text(k:k+1) == 'Pi' .or. text(k:k+1) == 'pI' .or. text(k:k+1) == 'PI') then
    text = text(1:k-1)//'3.14159'//text(k+2:ilength)
 ilength = ilength + 5
 item = 1
   end if

   !converte v�rgula em ponto, caso o usu�rio digite v�rgula
   if(text(k:k) == ',') then
    text = text(1:k-1)//'.'//text(k+1:ilength)
 item = 1
   end if

  end do
 
 end if



 if(ilength > 2) then

   !pen�ltimo
   if(text((ilength-1):(ilength-1)) == '^') then
    text = text(1:ilength-2)//'**'//text(ilength:ilength)
 item = 1
   end if

   !pen�ltimo
   if(text((ilength-1):(ilength-1)) == ',') then
    text = text(1:ilength-2)//'.'//text(ilength:ilength)
 item = 1
   end if

 end if


 if(ilength > 1) then
  
   !�ltimo
   if(text((ilength):(ilength)) == ',') then
    text = text(1:ilength-1)//'.'
 item = 1
   end if
 
 end if

if(item == 1) goto 10

return

end subroutine
